CN111843554A - Inclined plane type punching device for electrical machining - Google Patents

Abstract

The invention provides an inclined plane type punching device for electrical machining, belongs to the technical field of machining, and aims to solve the problems that the direction of the existing inclined plane is difficult to adjust, punching stress is difficult to control after the inclined plane is inclined, and the punching effect is poor. Comprises a punching frame; a group of angle adjusting devices are rotatably connected inside the middle of the punching frame; the top of the punching frame is hinged with a group of steering devices; the top of the steering device is rotatably connected with a group of workbenches; the top of the workbench is hinged with a group of scissor arms, and a connecting rod of each scissor arm is hinged with a group of top plate nuts to form a scissor mechanism. According to the device, the angle adjusting device is arranged at the bottom of the punching frame, so that the punching device can conveniently punch the inclined plane of the part; the steering device enables the workbench to rotate in an angle, so that the punching device can punch inclined planes in different placing directions; the auxiliary top plate is arranged to ensure that the part keeps a fixed position when the workbench inclines so as to ensure the punching effect.

Description

Inclined plane type punching device for electrical machining

Technical Field

The invention belongs to the technical field of machining, and particularly relates to an inclined plane type punching device for electrical machining.

Background

The punching device is a device widely applied to punching and cutting textiles, batteries, circuit boards, resistors, plates and the like, for example, some plate accessories in mechanical parts need to be processed with through holes on the plates, and because the end parts of plate blanks are not level, the plates need to be cut off, the plates can be cut off by using the punching device, or the outer walls of the batteries need to be marked with plus or minus signs of positive and negative poles, or the plates can be marked by using the punching device, and with the improvement of industrial level, some products needing punching are not plane any more, in order to punch the products by inclined planes, a method for turning the punching device is generally adopted, so that the punching device is inclined to be parallel to the products and then performs punching, the punching device is heavy and is not turned to be influenced by gravity and the like, and the punching effect is poor due to inaccurate punching.

Based on the above, most of the existing inclined plane type punching devices adopt a mode of inclining the punching device, so that the punching device and an article to be punched are on the same plane, and then the article is punched, and the inclination direction of the punching device is difficult to adjust, so that the fine adjustment is difficult, and the situations of burrs, incapability of cutting and the like during punching can be caused; meanwhile, the punching device is heavy, punching stress is difficult to control after the punching device is inclined, so that the punching effect is poor, and the influence on the service life of the punching device is large.

In view of the above, the present invention provides an inclined plane type punching apparatus for electrical machining, which is improved in view of the conventional structure and defects, and is expected to achieve the purpose of higher practical value.

Disclosure of Invention

In order to solve the above technical problems, the present invention provides an inclined plane type punching device for electrical machining, which solves the problems that the existing inclined plane type punching device mostly adopts a mode of inclining the punching device, so that the punching device and an article to be punched are in the same plane, and then punching operation is performed on the article, the inclination direction of the punching device is difficult to adjust, fine adjustment is difficult, burrs can be generated in punching, and the article cannot be cut off; meanwhile, the punching device is heavy, the punching stress is difficult to control after the punching device is inclined, the punching effect is poor, and the influence on the service life of the punching device is large.

The invention relates to an inclined plane type punching device for electrical mechanical processing, which is achieved by the following specific technical means:

an inclined plane type punching device for electrical machining comprises a punching frame; a group of angle adjusting devices are rotatably connected inside the middle of the punching frame; the angle adjusting device is respectively connected with a group of driving angle adjusting gears in a sliding manner outside the two sides of the punching frame, and the outer sides of the two groups of driving angle adjusting gears are respectively and elastically connected with a group of compression springs; the top of the punching frame is hinged with a group of steering devices; the steering device is internally and rotatably connected with a group of steering worms, the steering worms are meshed with the steering worm wheels to form a worm and gear transmission mechanism, and the tops of the steering worm wheels are fixedly connected with a group of driving steering gears; the top of the steering device is rotatably connected with a group of workbenches; the top of the workbench is hinged with a group of scissor arms, a connecting rod of each scissor arm is hinged with a group of top plate nuts to form a scissor fork mechanism, and the top plate nuts are meshed with the top plate screws to form a screw rod transmission mechanism.

Further, die-cut frame is still including die-cut piece, and die-cut frame is installed on level and smooth subaerial, is provided with the trompil on the die-cut frame base and passes through bolt and ground fixed connection, and die-cut frame top sliding connection has a set of die-cut piece that can the adjusting position.

Furthermore, the angle adjusting device further comprises a spline shaft, angle adjusting fixing blocks and fixing block springs, the angle adjusting device is rotatably connected in the holes in the punching frame, the angle adjusting device is provided with a group of spline shafts, a group of hexagonal angle adjusting fixing blocks are fixedly connected onto the spline shafts, the holes with the front portions being cylindrical and the rear portions being hexagonal are arranged in the punching frame, the fixing block springs are fixedly connected onto the cylindrical inner wall of the front portions of the punching frame, and the fixing block springs are elastically connected with the angle adjusting fixing blocks.

Furthermore, the front part of the angle adjusting device is fixedly connected with a group of operating hand wheels, a spline shaft of the angle adjusting device is connected with two groups of driving angle adjusting gears on the front side and the rear side of the punching frame in a sliding manner, planes at the two ends of the spline shaft are respectively and fixedly connected with a group of compression springs, the compression springs are elastically connected with the driving angle adjusting gears, the steering device further comprises driven angle adjusting gears, a group of driven angle adjusting gears are respectively and fixedly connected with the outer parts of semicircular slide rails at the bottom of the steering device, and the driving angle adjusting gears are meshed with the driven angle adjusting gears to form a gear transmission.

Furthermore, the steering device is rotatably connected to the top of the punching frame, the front portion of the steering device is fixedly connected with a group of control hand wheels, the rear portion of the control hand wheels of the steering device is fixedly connected with a group of steering connecting rods, the steering connecting rods in the punching frame are fixedly connected with a group of steering worms, and the steering worms are meshed with the steering worm wheels to form a worm and gear transmission mechanism.

Further, the driving steering gear at the top of the steering device is fixedly connected with the steering worm wheel, the workbench further comprises a driven steering gear, the workbench is rotatably connected to a rotating shaft at the top of the steering device, a group of driven steering gears are fixedly connected to the bottom of the workbench, and the driven steering gears and the driving steering gears are meshed to form a gear transmission mechanism.

Furthermore, the top of the workbench is slidably connected with a set of auxiliary top plates, two ends of the left side of the scissor arm are respectively hinged to the auxiliary top plates, one end of the left side of the scissor arm is hinged to a top plate nut, a set of hand wheels are fixedly connected to the front portion of a top plate screw rod, the top plate screw rod and the top plate nut are meshed to form a screw rod transmission mechanism, and the auxiliary top plate, the top plate screw rod and the scissor arm form a scissor mechanism.

Compared with the prior art, the invention has the following beneficial effects:

the angle adjusting device is arranged at the bottom of the punching frame, and the position of the angle adjusting fixing block which can be controlled is rotated, so that the workbench can be adjusted within a certain angle, a part in the workbench can be rotated by a certain angle, the part faces different inclined planes upwards, and the punching device can conveniently punch the inclined planes of the part; meanwhile, the workbench can rotate at a certain angle within the same inclination by the steering device, so that the punching device can punch inclined planes in different placing directions; through set up supplementary roof in the workstation, can make the workstation part keep fixed position unchangeable when the slope, avoid leading to the part to remove because of the slope, guarantee die-cut effect.

Drawings

Fig. 1 is a schematic axial side structure of the main body of the present invention.

Fig. 2 is a schematic axial sectional view of the main body of the present invention.

FIG. 3 is a schematic side view of the table of the present invention.

Fig. 4 is a schematic view of the steering apparatus of the present invention in an axial side configuration.

Fig. 5 is a schematic diagram of the structure of the recliner on the shaft side.

Fig. 6 is a schematic axial sectional view of the recliner of the present invention.

Fig. 7 is a schematic diagram of the shaft side structure of the angle adjusting fixed block of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a punching frame; 101. punching a piece; 2. an angle adjusting device; 201. a spline shaft; 202. driving an angle adjusting gear; 203. a compression spring; 204. angle adjusting fixed blocks; 205. a fixed block spring; 3. a steering device; 301. a steering link; 302. a steering worm; 303. a steering worm gear; 304. a drive steering gear; 305. a driven angle adjusting gear; 4. a work table; 401. a driven steering gear; 402. an auxiliary top plate; 403. a top plate screw; 404. a top plate nut; 405. a scissor arm.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 7:

the invention provides an inclined plane type punching device for electrical machining, which comprises a punching frame 1; a group of angle adjusting devices 2 are rotatably connected in the middle of the punching frame 1; the angle adjusting device 2 is respectively connected with a group of driving angle adjusting gears 202 in a sliding manner outside the two sides of the punching frame 1, and the outer sides of the two groups of driving angle adjusting gears 202 are respectively and elastically connected with a group of compression springs 203; the top of the punching frame 1 is hinged with a group of steering devices 3; a group of steering worms 302 are rotatably connected inside the steering device 3, the steering worms 302 are meshed with a steering worm wheel 303 to form a worm and worm transmission mechanism, and the top of the steering worm wheel 303 is fixedly connected with a group of driving steering gears 304; the top of the steering device 3 is rotatably connected with a group of workbenches 4; the top of the working table 4 is hinged with a group of scissor arms 405, a group of top plate nuts 404 is hinged on a connecting rod of the scissor arms 405 to form a scissor mechanism, and the top plate nuts 404 are meshed with the top plate screws 403 to form a screw rod transmission mechanism.

Wherein, die-cut frame 1 is still including die-cut 101, die-cut frame 1 is installed on level and smooth subaerial, it passes through bolt and ground fixed connection to be provided with the trompil on the 1 base of die-cut frame, die-cut 1 top sliding connection has a set of die-cut 101 that can the adjusting position, when using, die-cut frame 1 is current structure, fix die-cut 101 through the top subaerial to carry out die-cut processing to the product, die-cut 101 can be controlled equidirectional displacement in the front and back about to the adjustment needs carry out die-cut position.

Wherein, the angle adjusting device 2 further comprises a spline shaft 201, an angle adjusting fixed block 204 and a fixed block spring 205, the angle adjusting device 2 is rotatably connected in the hole inside the punching frame 1, the angle adjusting device 2 is provided with a group of spline shafts 201, the spline shafts 201 are fixedly connected with a group of hexagonal angle adjusting fixed blocks 204, the punching frame 1 is internally provided with a hole which is cylindrical at the front part and hexagonal at the rear part, the fixed block spring 205 is fixedly connected on the cylindrical inner wall at the front part of the punching frame 1, the fixed block spring 205 is elastically connected with the angle adjusting fixed block 204, when in use, the angle adjusting fixed block 204 is influenced by the elasticity of the fixed block spring 205 and is in the hexagonal hole at the rear part of the punching frame 1, the angle adjusting fixed block 204 is fixed in the hexagonal hole and can not rotate, when the spline shafts 201 are pulled forwards, the angle adjusting fixed block 204 moves forwards to compress the fixed block spring 205, the, when the hand is loosened, the angle adjusting fixing block 204 returns to the rear part of the die-cutting frame 1 to be fixed in the hexagonal opening under the elastic influence of the fixing block spring 205, and if the angle adjusting fixing block 204 does not rebound smoothly, only the spline shaft 201 needs to be slightly rotated.

Wherein, the front part of the angle adjusting device 2 is fixedly connected with a group of operating handwheels, the spline shaft 201 of the angle adjusting device 2 is connected with two groups of driving angle adjusting gears 202 on the front and back sides of the punching frame 1 in a sliding way, the planes at the two ends of the spline shaft 201 are respectively and fixedly connected with a group of compression springs 203, the compression springs 203 are elastically connected with the driving angle adjusting gears 202, the steering device 3 also comprises driven angle adjusting gears 305, the outside of the semicircular slide rail at the bottom of the steering device 3 is respectively and fixedly connected with a group of driven angle adjusting gears 305, the driving angle adjusting gears 202 are meshed with the driven angle adjusting gears 305 to form a gear transmission mechanism, when in use, an operator rotates the handwheels at the front part of the angle adjusting device 2 to drive the two groups of driving angle adjusting gears 202 on the spline shaft 201 to synchronously rotate, when the spline shaft 201 moves back and forth, the driving angle adjusting, the driven angle adjusting gear 305 is driven by the rotating driving angle adjusting gear 202 through a gear transmission mechanism to rotate, and the driven angle adjusting gear 305 drives the steering device 3 to swing and incline for a certain angle along the punching frame 1, so that the punching piece 101 can perform bevel processing on the punching device.

The steering device 3 is rotatably connected to the top of the punching frame 1, a group of steering handwheels are fixedly connected to the front portion of the steering device 3, a group of steering connecting rods 301 are fixedly connected to the rear portions of the steering handwheels of the steering device 3, a group of steering worms 302 are fixedly connected to the steering connecting rods 301 inside the punching frame 1, the steering worms 302 are meshed with the steering worm wheels 303 to form a worm and gear transmission mechanism, when the steering mechanism is used, a worker rotates the steering handwheels at the front portion of the steering device 3, the steering connecting rods 301 drive the steering worms 302 to synchronously rotate, the steering worms 302 drive the steering worm wheels 303 on the right side to synchronously rotate through the worm and gear transmission mechanism, and meanwhile, the worm and gear transmission mechanism has a self-locking effect, and the steering worm.

Wherein, turn to the drive steering gear 304 at device 3 top and turn to worm wheel 303 fixed connection, workstation 4 is still including driven steering gear 401, workstation 4 rotates to be connected in the pivot that turns to device 3 top, a set of driven steering gear 401 of 4 bottom fixedly connected with of workstation, driven steering gear 401 constitutes gear drive with the meshing of drive steering gear 304, when using, rotate the drive steering gear 304 synchronous rotation that drives fixed connection through turning to worm wheel 303, drive steering gear 304 drives driven steering gear 401 synchronous rotation through gear drive, it carries out the rotation of certain angle in step to drive workstation 4 through driven steering gear 401 rotation, can adjust the direction of cutting.

When the punching machine is used, an operator rotates the hand wheel at the front part of the top plate screw 403 to drive the top plate screw 403 to rotate, the top plate screw 403 drives the top plate nut 404 to move on the top plate screw 403 through the lead screw drive mechanism, the top plate screw 403 changes the position to enable the auxiliary top plate 402 to slide left and right through the shearing fork mechanism, and punching articles are pushed against the punching piece 101 for punching through the auxiliary top plate 402.

The specific use mode and function of the embodiment are as follows:

the punching frame 1 is arranged on the ground, a group of cylindrical openings at the front part and hexagonal openings at the rear part are arranged in the punching frame 1, the angle adjusting fixing block 204 at the middle part of the angle adjusting device 2 is influenced by the elasticity of the fixing block spring 205 and is arranged in the hexagonal openings at the rear part of the punching frame 1, the angle adjusting fixing block 204 is fixed in the hexagonal openings and cannot rotate, an operator pulls forward and rotates a hand wheel at the front part of the angle adjusting device 2, the angle adjusting fixing block 204 moves forward to compress the fixing block spring 205, the angle adjusting fixing block 204 moves into a cylinder at the front part of the punching frame 1 to rotate, two groups of driving angle adjusting gears 202 on the spline shaft 201 synchronously rotate, the driving angle adjusting gears 202 are pressed by the pressing springs 203, meanwhile, the rotating driving angle adjusting gears 202 drive the driven angle adjusting gears 305 to rotate through a gear transmission mechanism, and the steering device 3 swings, when the hand is released, the angle adjusting fixing block 204 returns to the rear part of the die-cutting frame 1 to be fixed in a hexagonal opening under the elastic influence of the fixing block spring 205, and the angle adjusting device 2 cannot rotate continuously; the front control hand wheel of the steering device 3 is rotated by an operator, the steering connecting rod 301 drives the steering worm 302 to synchronously rotate the steering worm wheel 303 through the worm and gear transmission mechanism, the steering worm wheel 303 rotates to drive the fixedly connected driving steering gear 304 to synchronously rotate the driven steering gear 401 through the gear transmission mechanism, the workbench 4 can rotate a certain angle to adjust the cutting direction, the die-cut part 101 at the top of the die-cut frame 1 can be displaced in the front and back direction to adjust the die-cut position, and the auxiliary top plate 402 is used for supporting a die-cut object to the convenient die-cut part 101 for die-cutting through the auxiliary top plate 402, the top plate screw 403 and the shear fork arm 405 to form the shear fork mechanism.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (7)

1. The utility model provides a die-cut device of inclined plane formula for electrical machinery processing which characterized in that: the inclined plane type punching device for the electrical machining comprises a punching frame (1); a group of angle adjusting devices (2) are rotatably connected inside the middle of the punching frame (1); the angle adjusting device (2) is respectively connected with a group of driving angle adjusting gears (202) in a sliding manner outside the two sides of the punching frame (1), and the outer sides of the two groups of driving angle adjusting gears (202) are respectively and elastically connected with a group of compression springs (203); the top of the punching frame (1) is hinged with a group of steering devices (3); a group of steering worms (302) is rotatably connected inside the steering device (3), the steering worms (302) are meshed with a steering worm wheel (303) to form a worm and gear transmission mechanism, and the top of the steering worm wheel (303) is fixedly connected with a group of driving steering gears (304); the top of the steering device (3) is rotatably connected with a group of workbenches (4); the top of the workbench (4) is hinged with a group of scissor arms (405), a connecting rod of the scissor arms (405) is hinged with a group of top plate nuts (404) to form a scissor mechanism, and the top plate nuts (404) are meshed with the top plate screw rods (403) to form a screw rod transmission mechanism.

2. The bevel-type die-cutting device for electrical machining according to claim 1, wherein: the punching frame (1) is characterized by further comprising a punching piece (101), the punching frame (1) is installed on the flat ground, a hole is formed in a base of the punching frame (1) and fixedly connected with the ground through a bolt, and the top of the punching frame (1) is slidably connected with a group of punching pieces (101) with adjustable positions.

3. The bevel-type die-cutting device for electrical machining according to claim 1, wherein: the angle adjusting device (2) is characterized by further comprising a spline shaft (201), an angle adjusting fixing block (204) and a fixing block spring (205), the angle adjusting device (2) is rotatably connected in the holes in the punching frame (1), the angle adjusting device (2) is provided with a group of spline shaft (201), the spline shaft (201) is fixedly connected with a group of hexagonal angle adjusting fixing blocks (204), the punching frame (1) is internally provided with holes with the front portion being cylindrical and the rear portion being hexagonal, the fixing block spring (205) is fixedly connected to the cylindrical inner wall of the front portion of the punching frame (1), and the fixing block spring (205) is elastically connected with the angle adjusting fixing blocks (204).

4. The bevel-type die-cutting device for electrical machining according to claim 1, wherein: the front part of the angle adjusting device (2) is fixedly connected with a group of operating hand wheels, a spline shaft (201) of the angle adjusting device (2) is connected with two groups of driving angle adjusting gears (202) in a sliding mode on the front side and the rear side of the punching frame (1), planes at two ends of the spline shaft (201) are respectively and fixedly connected with a group of compression springs (203), the compression springs (203) are elastically connected with the driving angle adjusting gears (202), the steering device (3) further comprises driven angle adjusting gears (305), the outer parts of semicircular slide rails at the bottom of the steering device (3) are respectively and fixedly connected with a group of driven angle adjusting gears (305), and the driving angle adjusting gears (202) are meshed with the driven angle adjusting gears (305) to form a gear transmission mechanism.

5. The bevel-type die-cutting device for electrical machining according to claim 1, wherein: the steering device (3) is rotatably connected to the top of the punching frame (1), a group of control hand wheels are fixedly connected to the front portion of the steering device (3), a group of steering connecting rods (301) are fixedly connected to the rear portions of the control hand wheels of the steering device (3), a group of steering worms (302) are fixedly connected to the steering connecting rods (301) inside the punching frame (1), and the steering worms (302) are meshed with steering worm wheels (303) to form a worm and gear transmission mechanism.

6. The bevel-type die-cutting device for electrical machining according to claim 1, wherein: the steering gear (304) at the top of the steering device (3) is fixedly connected with the steering worm wheel (303), the workbench (4) is further provided with a driven steering gear (401), the workbench (4) is rotatably connected to a rotating shaft at the top of the steering device (3), a group of driven steering gears (401) are fixedly connected to the bottom of the workbench (4), and the driven steering gears (401) are meshed with the driving steering gear (304) to form a gear transmission mechanism.

7. The bevel-type die-cutting device for electrical machining according to claim 1, wherein: the top of the workbench (4) is connected with a set of auxiliary top plate (402) in a sliding mode, two ends of the left side of the scissor arm (405) are connected to the auxiliary top plate (402) through hinges, one end of the left side of the scissor arm (405) is connected to the top plate nut (404) through hinges, a set of hand wheels are fixedly connected to the front portion of the top plate screw rod (403), the top plate screw rod (403) is meshed with the top plate nut (404) to form a screw rod transmission mechanism, and the auxiliary top plate (402), the top plate screw rod (403) and the scissor arm (405) form a scissor mechanism.

Images